News Environment Mariana Trench Contains 'Startling' Amounts of Plastic By Michael d'Estries Michael d'Estries LinkedIn Twitter Writer State University of New York at Geneseo Quaestrom School of Business, Boston University (2022) Michael d’Estries is a co-founder of the green celebrity blog Ecorazzi. He has been writing about culture, science, and sustainability since 2005. His work has appeared on Business Insider, CNN, and Forbes. Learn about our editorial process Updated November 21, 2017 This story is part of Treehugger's news archive. Learn more about our news archiving process or read our latest news. Amphipods retrieved from the Mariana Trench contain 50 times more toxic chemicals than those in some of the world's most polluted rivers. . (Photo: Uwe Kils/Wikimedia Commons) Share Twitter Pinterest Email News Environment Business & Policy Science Animals Home & Design Current Events Treehugger Voices News Archive It's easy to assume that the ocean's deepest points have remained largely untouched by humanity, especially given that such depths range from 26,000 to 36,000 feet under the surface. But new research shows that plastic has not only reached these ocean trenches but is also being ingested by animals. Newcastle University's Dr. Alan Jamieson led a study that tested 90 animals from the trenches, including the Mariana Trench at 10,890 meters. Jamieson's team discovered many of these animals were ingesting plastic. Shockingly enough, 100 percent of the animals tested from the Mariana Trench contained plastic. "The results were both immediate and startling," said Jamieson. "This type of work requires a great deal of contamination control, but there were instances where the fibers could actually be seen in the stomach contents as they were being removed." The fragments discovered in the stomachs were plastics used to make textiles like Rayon and polyethylene to produce PVA/PVC plastic. The video below shows how the equipment the research team used to reach the ocean trenches. This isn't the first study his team has conducted on the effects of toxins on the deepest level of the ocean floor. Earlier in 2017, they sent remotely operated vehicles with bait traps into the Mariana and Kermadec trenches of the Pacific Ocean. Both trenches teem with life at 30,000 feet deep. This video shows just how popular these traps were with marine life: After catching a number of small crustaceans called amphipods, the scientists were surprised to discover that the creatures contained more toxins than comparable crustaceans living in some of the world's most polluted rivers. Their findings were published in Nature Ecology & Evolution. "In fact, the amphipods we sampled contained levels of contamination similar to that found in Suruga Bay, one of the most polluted industrial zones of the northwest Pacific," Jamieson said in a statement. "What we don't yet know is what this means for the wider ecosystem and understanding that will be the next major challenge." Banned chemicals resurface The toxins discovered within the amphipods included polychlorinated biphenyls (PCBs) and polybrominated diphenyl ethers (PBDEs); chemicals that were commonly used for nearly four decades until being banned in the late 1970s. An estimated 1.3 million tons were produced during that time, with some 35 percent of it ending up in coastal sediments and open ocean. Because these types of pollutants are resistant to natural degradation, they have continued to persist in the environment. The researchers theorize that the extreme levels found in the trenches may be a result of deep sea creatures consuming both plastic debris and the contaminated carcasses of dead animals sinking from above. "The fact that we found such extraordinary levels of these pollutants in one of the most remote and inaccessible habitats on Earth really brings home the long term, devastating impact that mankind is having on the planet," Jamieson added. "It's not a great legacy that we're leaving behind." The next step for the researchers will be to determine the impact of the toxins on the trench ecosystem and the steps, if any, that can be taken to avoid further imperilment of a deep sea world we're only just beginning to shed light on.